| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Shock sensor switch | EP85305668.7 | 1985-08-09 | EP0172005A2 | 1986-02-19 | Grant, John |
A vibration sensitive switch has a pair of spaced apart parallel contacts (4) housed in a switch body (1,2,3) and a movably supported activated mass (5) inside a chamber (6) in the body. The mass (5) is supported by contact bridging means in the form of a pair of bars (14, 16) secured in the mass and located between the two contacts (4) with the centre of gravity (Cg) of the mass (5) spaced from the points of contact between the contacts (4) and the bars so that bars are urged against the contacts (4) by a lever action as a result of the gravitational force acting on the mass (5) . The forces at the contact points are thus greater than that which would be obtained by simply allowing the mass to rest on the contacts, which enables a relatively small mass to be used having a greater sensitivity to high frequency vibrations. |
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| 42 | Acceleration signal processor | JP2011269924 | 2011-12-09 | JP2013122380A | 2013-06-20 | SHIMODA SADAYUKI |
| PROBLEM TO BE SOLVED: To extend a battery life by completely stopping a sensor body in an acceleration signal processor when no vibration is applied.SOLUTION: One through electrode 208 of an acceleration switch 002 is connected to a positive supply or a negative supply, another through electrode 207 of the acceleration switch 002 is connected to an interruption input terminal 302 of a micro computer 301. The application of acceleration causes signals to be input to the interruption input terminal 302 of the micro computer 301, and the micro computer 301 starts up a sensor body 304. | ||||||
| 43 | Signal processing circuit, vibration detection circuit, and electronic device | JP2011075586 | 2011-03-30 | JP2012206687A | 2012-10-25 | SHIMODA SADAYUKI |
| PROBLEM TO BE SOLVED: To obtain a circuit in which, when a system is powered off, almost no current is consumed, and when vibration is applied, a sensor is activated to start detecting acceleration in a signal processing circuit for an acceleration switch.SOLUTION: One terminal of the acceleration switch is connected to a main determination section of the signal processing circuit, the other terminal of the acceleration switch is connected to a power supply control section or a power supply, and the main determination section determines the occurrence of vibration applied to the acceleration switch. Based on a result of the determination, the power supply control section controls the supply of power of a main control section or the sensor. | ||||||
| 44 | Small tilt and vibration sensor and a method of manufacturing the same | JP2007531056 | 2006-08-17 | JP4805934B2 | 2011-11-02 | 照雄 嶋瀬 |
| 45 | Omnidirectional tilt and vibration sensor | JP2007551464 | 2006-01-17 | JP2008532208A | 2008-08-14 | ジュニア,ウィットモア,ビー ケリー; ブレイズ,ブライアン |
| 【課題】
全方向性傾斜および振動センサと、その構成方法とを提供する。 【解決手段】 センサは、第1の導電素子と、第2の導電素子と、第1の導電素子および第2の導電素子に接続された電気絶縁素子とを含む。 センサは、第1の導電素子の少なくとも1つの面と、電気絶縁素子の少なくとも1つの面と、第2の導電素子の少なくとも1つの面とによって画成されたセンサの空洞内に配置された複数の導電性錘体をさらに含む。 【選択図】図1 |
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| 46 | Tilt switch | JP2006302875 | 2006-11-08 | JP2008027882A | 2008-02-07 | HONG WEN-JEN |
| PROBLEM TO BE SOLVED: To provide a tilt switch in which a conductor ball is held by three terminals in a stable three-point support which is easily dynamically balanced and an electric intermittent phenomenon at a time of operating of a switch at a critical angle can be reduced and an operation angle of the switch can be easily changed and adjusted. SOLUTION: The tilt switch is provided with a case 1, a cover 2, a plurality of terminals T1, T2 and a conductor ball 3. Three terminals T1, T2 are arranged to be positioned at apexes of a triangle on the bottom of the case 3 and a top end, inside of the case 3, of the terminal T1 out of the three terminals and top ends, inside the case 3, of the other two terminals T2 are positioned to face each other, and a length of a projected part inside the case 3 of the one terminal T1 is formed to be longer than the lengths of the projected parts inside the case 3 of the other two terminals so as to provide a step differential between the one terminal T1 and the other two terminals T2. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 47 | Normally closed compact vibration sensor | JP2001360605 | 2001-11-27 | JP2003161653A | 2003-06-06 | ARAI KIYOTSUGU |
| PROBLEM TO BE SOLVED: To provide an omnidirectional normally closed compact vibration sensor which facilitates installation of electrode members constituting the major portion of assembly work, has a simple structure, robustness, capability of downsizing the whole, increases manufacturability, lowers a price, durability and abrasion resistance, and has high degree of reliability. SOLUTION: A pair of electrode members A1, A2 forming an opening 2A having a nearly semi-ellipsoidal surface having an opening at the front end face are adhered to a molded insulator B so that a gap 4 having a predetermined width is formed between the electrode members A1 and A2. The openings of the electrode members facing each other form a cavity 2 having a nearly ellipsoidal inner surface, in which two electrically conductive spherical bodies C are accommodated in a rollable manner. In a stationary state, regardless of their attitudes, two spherical bodies make contact with the electrode members, while the spherical bodies always make contact with each other, providing electric conduction between the two electrode members. When vibration is applied, regardless of its vibration direction, electrical conduction and nonconduction are repeated, when the spherical bodies move. COPYRIGHT: (C)2003,JPO | ||||||
| 48 | Seismoscope | JP14328397 | 1997-05-16 | JP3406186B2 | 2003-05-12 | 英之 備後; 達英 森沢; 秀夫 田代; 賢二 篠原 |
| 49 | Power supply cutoff device using earthquake shock | JP24929197 | 1997-08-11 | JPH1167045A | 1999-03-09 | TANIMURA MASAMI |
| PROBLEM TO BE SOLVED: To provide an easy-to-install, inexpensive device by connecting a weight to the end of a connector connected to the end of the switch level of a power supply switch, placing the weight on the weight receiving part of the power supply switch, and causing the weight to drop by an earthquake shock to move the switch level of the power supply switch in the closing direction. SOLUTION: An approximately L-shaped weight receiving part 7 provided with an opening is provided below a power supply switch 5, and a weight 1 put over the opening is connected by a connector 2 made of a soft material to an opening 4 located at the end of a switch level 3. Under the strong an earthquake shock, the weight 1 rolls out of the opening in the weight receiving part 7 and disconnects and drops from the weight receiving part 7. Once the weight 1 has dropped by the full length of the connector 2, the gravitational force of the weight 1 is transmitted to the switch lever 3 as impact, moving the switch lever 3 downward and shutting off power. The problem that the switch lever does not operate as it is pressed by furniture or the like, as when the device is set in a wall outlet, etc., can also be avoided. | ||||||
| 50 | Power source and the like shutoff device at strong earthquake sensing time | JP4787396 | 1996-01-29 | JPH09213181A | 1997-08-15 | NAKAJIMA NORIO |
| PROBLEM TO BE SOLVED: To provide a device for preventing a secondary disaster at an earthquake disaster by shutting off a power source switch automatically or closing the main cock of gas when a strong earthquake is sensed. SOLUTION: A weight 1 connected to the lever of a power source switch or the main cock 10 of gas by a string 6 is mounted on the upper portion of a small diameter pipe 2 erecting provided. When the weight 1 falls down by the vibration of an earthquake, the lever of the power source switch is pulled down or the main cock 10 of the gas is closed, and simultaneously a battery separation plate 7 separating the dry batteries in a flashlight 4 provided with is extracted so as to turn on the flashlight 4. COPYRIGHT: (C)1997,JPO | ||||||
| 51 | Valve drive | JP225185 | 1985-01-11 | JPS60159479A | 1985-08-20 | COOMBES GRAHAM E; LEMOINE AUSTIN J |
| 52 | JPS5925163B2 - | JP7659878 | 1978-06-26 | JPS5925163B2 | 1984-06-15 | FURANSHISU JOSEFU ANDAASON |
| 53 | Vibration sensor | JP12731181 | 1981-08-13 | JPS5754820A | 1982-04-01 | JIYON TEII GURANTO |
| 54 | Magnetic switch | JP1258977 | 1977-02-09 | JPS5297171A | 1977-08-15 | MOOTON KOOEN |
| 55 | OMNIDIRECTIONAL TILT AND VIBRATION SENSOR | PCT/US2007001181 | 2007-01-17 | WO2007087206A2 | 2007-08-02 | KELLEY WHITMORE B JR; BLADES BRIAN |
| An omni-directional tilt and vibration sensor contains a first electrically conductive element, a second electrically conductive element, and an electrically insulative element. The electrically insulative element is connected to the first electrically conductive element and the second electrically conductive element, where at least a portion of the first electrically conductive element and at least a portion of the second electrically conductive element are located within the electrically insulative element. A plurality of electrically conductive weights are located within a cavity of the sensor, wherein the cavity is defined by at least one surface of the first electrically conductive element, at least one surface of the electrically insulative element, and at least one surface of the second electrically conductive element. | ||||||
| 56 | QUAKE PLUG | PCT/US2015036102 | 2015-06-16 | WO2015200055A2 | 2015-12-30 | SOLIS STEVE JAVIER |
| An original apparatus that will react and shut off a main fluid source during a severe earthquake. A steel ball is held at an elevated position by a secured magnet within the housing. It is a preferred embodiment that all materials, for the exception of the steel ball are made of a non-magnetic substance, so that no internal parts interfere with the operation of the apparatus. In the event of a severe earthquake, the seismic vibrations will cause the steel ball to shake and break away from the magnet. Gravity will cause it to fall down. The steel ball will then fall onto the slide trigger. The weight of the steel ball and slide trigger will be pushed down completely and the bottom portion of the slide trigger shall make contact and engage a momentary switch. The momentary switch, in the engaged position will send direct current voltage to a normally open motorized ball valve and cause it to close. Preventing fluid to pass through said ball valve. The apparatus can be reset by manually pulling upward the lift handle towards the top cap. This will allow for the weight of the steel ball to be lifted off the momentary switch and get magnetically attached back to the magnet. Resulting in the momentary switch to disengage and the voltage will seize to power the normally open motorized ball valve, causing it to go back to its normally open state. Thus allowing the fluid to pass through the ball valve. This apparatus can be used repetitively. | ||||||
| 57 | 신호 처리 회로, 진동 검출 회로 및 전자 장치 | KR1020120031729 | 2012-03-28 | KR1020120112139A | 2012-10-11 | 시모다사다시 |
| PURPOSE: A signal processing circuit, a vibration detection circuit, and an electronic device are provided to reduce the power consumption of a system with the signal processing circuit and an acceleration switch by controlling currents flowing in the acceleration switch. CONSTITUTION: A signal processing circuit(20) comprises a main determination unit(21), a power control unit(22), a main control unit(23), and a sensor(24). The main judgment unit determines vibration applied to an acceleration switch(10) by comparing the output of the acceleration switch with a first pre-set judgment standard. The power control unit controls the supply of power based on the judged results. The main control unit controls a target object(30) based on the power supplied from the power control unit. The sensor detects physical quantity based on the supplied power. [Reference numerals] (10) Acceleration switch; (21) Main determination unit; (22) Power control unit; (23) Main control unit; (24) Sensor; (30) Target object | ||||||
| 58 | 소형 경사 및 진동 센서와 그 제조 방법 | KR1020087006500 | 2006-08-17 | KR101189717B1 | 2012-10-10 | 시마세데루오 |
| 복수의 전극 및 도전성 구체를 포함하고, 상기 구체의 이동 변위에 의해 턴온 및 턴오프되고, 현저하게 크기가 감소되며, 고성능, 고동작감도, 고내구성, 및 고신뢰성을 가지는 경사 진동 센서와, 상기 센서를 제조하는 방법이 제공된다. 상기 센서의 케이스(1)는 상기 도전성 구체(4)의 이동 변위에 의해 상기 센서의 온/오프 동작에 영향을 주는 가스의 투과를 방지할 수 있는 가스 장벽 특성과 내열성이 우수한 비도전성 재료로 형성된 케이스 본체(5) 및 상기 케이스 본체의 개구부(6)를 기밀하게 봉지하는 커버 본체(7)를 포함한다. 진동 센서 제조방법에 있어서, 상기 온/오프 동작에 영향을 끼치는 습기 및 입자 불순물이 상기 케이스(1)의 공동부(2)로부터 제거되고, 상기 공동부가 진공이 되게 한다. 공동부, 케이스 본체, 개구부, 케이스, 도전성 피막, 전극, 평면 전극, 도전성 구체, 뚜껑, 비도전성 재료, 소형 경사 및 진동 센서 | ||||||
| 59 | 단속소자, 이것을 구비한 회로 및 장치, 및 단속소자의조립방법 | KR1020050045017 | 2005-05-27 | KR1020060046219A | 2006-05-17 | 후꾸바히로시; 이케가미아키라; 토자와케이사브로; 코노유키토; 사에키키미히로; 코바야시키요시; 토베토시오; 이케가미키요시 |
| 소형화가 가능하고, 소비전력이 작으며, 저비용이고, 회로를 불규칙하게 도통 및 절연시킴으로써, 불규칙한 펄스전류를 발생시키는 것이 가능한 단속소자이고, 서로 이간하여 고정된 고정단자(12A 및 12B)와, 고정단자(12A 및 12B)에 대하여 이동가능하며, 상기 이동에 따라 고정단자(12A 및 12B)에 접촉 혹은 비접촉하여, 이들을 도통 혹은 절연시키는 가동부재(11)를 구비하고, 가동부재(11)는 외부로부터 부여된 진동에 따라 불규칙하게 상기 이동을 행하여, 고정단자(12A 및 12B)를 불규칙하게 도통 및 절연시킨다. | ||||||
| 60 | 반딧불 시그날 장치의 제어 | KR1020020000369 | 2002-01-03 | KR1020020023252A | 2002-03-28 | 이현주 |
| PURPOSE: A fluorescent signal device control is provided to prevent erroneous operation and minimize power consumption, while allowing signal transmission to be performed in a rapid and accurate manner. CONSTITUTION: A printed circuit board(2) has a battery holding pin(1) which prevents battery from being escaped even when a severe impact is applied. The PCB has an optical sensor(3) for sensing a specific brightness, and a vibration sensor(5) functioning as a switch. A light emitting device turns on and off in accordance with the instruction output from IC chips. The vibration sensor has internal electrodes separated by an insulating plastic separator, such that a metallic ball functions as a switch for a fine external vibration, to thereby easily turn on and off the device. In case where the optical sensor is absent, light emitting diodes of a wide variety of colors are used by the vibration sensed by the vibration sensor. | ||||||
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